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Superposition and Standing Waves

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Title: Welcome to PHY 1371 Author: Jie Zou Last modified by: Jie Zou Created Date: 7/20/2005 7:32:12 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Superposition and Standing Waves


1
Chapter 18
  • Superposition and Standing Waves

2
Outline
  • Superposition and interference
  • Superposition principle
  • Constructive and destructive interference
  • Superposition of sinusoidal waves
  • Interference of sound waves

3
Superposition principle
  • Superposition principle If two or more traveling
    waves are moving through a medium, the resultant
    value of the wave function at any point is the
    algebraic sum of the values of the wave functions
    of the individual waves.
  • Linear waves and nonlinear waves

4
Superposition of two pulses
  • Two traveling waves can pass through each other
    without being destroyed or even altered.
  • Interference The combination of separate waves
    in the same region of space to produce a
    resultant wave is called interference.
  • Constructive interference
  • Destructive interference

5
Superposition of sinusoidal waves
  • Two sinusoidal waves traveling in the same linear
    medium
  • y1 A sin(kx-?t)
  • y2 A sin(kx-?t?)
  • Resultant wave function
  • y y1 y2 2A cos(?/2)sin(kx-?t?/2).
  • If ? 0, 2?, 4?, y1 and y2 are in phase and
    interfere constructively y has an amplitude
    2A.
  • If ? ?, 3?, y1 and y2 are ? rads out of phase
    and interfere destructively y has an amplitude
    0.
  • If 0 lt?lt ?, y has an amplitude between 0 and 2A.

6
Interference of sound waves
  • A phase difference may arise between two waves
    generated by the same source when they travel
    along paths of unequal lengths.
  • Because a path difference of one wavelength
    corresponds to a phase angle of 2? rad, ?/2?
    ?r/?, or ?r (?/2?)?.
  • Conditions for constructive and destructive
    interference
  • ?r (2n) (?/2) for constructive interference
  • ?r (2n1) (?/2) for destructive interference
  • Some definitions
  • Path length r the distance along any path from
    speaker to receiver.
  • Path difference ?r r2 r1

7
Graphical example of interference of sound waves
8
Example 18.1
  • A pair of speakers placed 3.00 m apart are driven
    by the same oscillator. A listener is originally
    at point O, which is located 8.00 m from the
    center of the line connecting the two speakers.
    The listener then walks to point P, which is a
    perpendicular distance 0.350 m from O, before
    reaching the first minimum in sound intensity.
    What is the frequency of the oscillator?

9
Homework
  • Ch. 18, Problems 1, 5, 8, 11.
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